A lethal defect of mitochondrial and peroxisomal fission.
about
Mitochondrial translation and beyond: processes implicated in combined oxidative phosphorylation deficienciesLoss of MARCH5 mitochondrial E3 ubiquitin ligase induces cellular senescence through dynamin-related protein 1 and mitofusin 1Targeting of hFis1 to peroxisomes is mediated by Pex19pMff is an essential factor for mitochondrial recruitment of Drp1 during mitochondrial fission in mammalian cellsAdaptor proteins MiD49 and MiD51 can act independently of Mff and Fis1 in Drp1 recruitment and are specific for mitochondrial fission.SUMOylation of the mitochondrial fission protein Drp1 occurs at multiple nonconsensus sites within the B domain and is linked to its activity cycleThe mitochondrial outer membrane protein hFis1 regulates mitochondrial morphology and fission through self-interactionStructural insights into oligomerization and mitochondrial remodelling of dynamin 1-like proteinMetabolic regulation of mitochondrial dynamicsMitochondrial Quality Control and Muscle Mass MaintenanceThe different facets of organelle interplay-an overview of organelle interactionsMitochondrial geneticsPhysiological and pathological significance of dynamin-related protein 1 (drp1)-dependent mitochondrial fission in the nervous systemMitochondrial morphology-emerging role in bioenergeticsCell signaling and mitochondrial dynamics: Implications for neuronal function and neurodegenerative diseasePeroxisome biogenesis in mammalian cellsWhy mitochondria must fuse to maintain their genome integrityMitochondria and mitophagy: the yin and yang of cell death controlTitration of mitochondrial fusion rescues Mff-deficient cardiomyopathyMechanism of neuroprotective mitochondrial remodeling by PKA/AKAP1Dynamin-related protein 1 is required for normal mitochondrial bioenergetic and synaptic function in CA1 hippocampal neurons.Glucose stimulation induces dynamic change of mitochondrial morphology to promote insulin secretion in the insulinoma cell line INS-1EMuscle-specific Drp1 overexpression impairs skeletal muscle growth via translational attenuation.Structural basis for recruitment of mitochondrial fission complexes by Fis1Crystal Structure of Mitochondrial Fission Complex Reveals Scaffolding Function for Mitochondrial Division 1 (Mdv1) Coiled CoilFunctional Mapping of Human Dynamin-1-Like GTPase Domain Based on X-ray Structure AnalysesS-nitrosylation of Drp1 links excessive mitochondrial fission to neuronal injury in neurodegenerationDnm1p-dependent peroxisome fission requires Caf4p, Mdv1p and Fis1p.A neurodegenerative perspective on mitochondrial optic neuropathiesSignal transducer and activator of transcription 2 deficiency is a novel disorder of mitochondrial fissionTau promotes neurodegeneration via DRP1 mislocalization in vivoA designed point mutant in Fis1 disrupts dimerization and mitochondrial fissionMitochondrial fragmentation in neurodegenerationMitochondrial dynamics in diabetic cardiomyopathyA mutation in the mitochondrial fission gene Dnm1l leads to cardiomyopathyFUS Interacts with HSP60 to Promote Mitochondrial DamageThe spinocerebellar ataxia 12 gene product and protein phosphatase 2A regulatory subunit Bbeta2 antagonizes neuronal survival by promoting mitochondrial fissionBax interacting factor-1 promotes survival and mitochondrial elongation in neuronsCyclin-dependent kinases regulate splice-specific targeting of dynamin-related protein 1 to microtubules.The peroxisome: still a mysterious organelle
P2860
Q21296841-DD5F9CAC-18BC-4BDC-88D8-3B8670F39E20Q24297466-F9BB0522-DEBC-4F1B-8BCF-DE76E702D990Q24311757-4BB26D5B-FFF4-4F73-94B1-85496533C2A3Q24315625-6D630435-DBFC-4FA2-A82C-B43A1F8B354DQ24315659-4E9A1599-BE22-4216-8DA1-0C71B5B9CC65Q24318317-DCEF96A0-881E-4FFB-A930-E9E03371DE02Q24321524-01CE72AA-7C6F-45A8-AB7E-E86C37953C42Q24338467-6CBC0A54-1769-4AAD-BBEB-2AC71D018283Q26768130-703A87E3-F61B-431F-9AC1-2A2E661C3607Q26770420-E6832182-78BA-425D-973D-90A2F914BDB6Q26781052-8208E5C9-C291-4456-B724-C6D0AE6B3A90Q26849285-A2E0E6E8-8A91-4FD7-84CF-C1F03F170355Q26851430-71BC090B-0688-4068-9723-1290CD92EF5BQ26852770-9D872E19-A275-48EF-829C-E644AEB1A9CCQ26853356-69D505D8-F6A4-4586-BF68-FE54DD45BF9EQ26859014-BC87F9C5-C3C1-4EFC-A4DD-C3F3665596C3Q27022853-6FBA4D56-C5A6-4815-AC7E-086929B3AFB5Q27028020-B04B0BFD-20CC-464D-87BB-240CD3AD830CQ27309059-EBBC31F7-55C7-431C-87E4-41864F10E52EQ27322213-060FB057-A811-4182-9A84-26115E283CB6Q27329184-8C4CB91A-F9C7-4C05-8E00-59EAF32484CEQ27329439-F34C5727-B372-468E-9523-99AB67B9BFEFQ27330378-72F10521-3FC8-423D-88A7-114B197DE381Q27649021-69819F74-EDFA-4713-BE9A-42A3DE9A82A1Q27677023-66AB92F1-E285-46FB-97E9-B46DA4CD8265Q27679804-DFA8868D-F547-431A-AA3E-F2EEE54EEA7BQ27694603-69A0D63A-C662-4D83-B75A-644DFB0E7145Q27938612-EA9D0518-42AC-4A06-A0F0-420861C4106AQ28072026-DAA0C3D4-B992-4D64-B5DC-2B4AAD5C2393Q28115520-91D942AD-88E2-4275-98DB-493EAE68A367Q28119104-0185C2E4-8E9F-435F-9A0F-17C20E9E4D54Q28270916-90BD2DC1-9C6C-46B4-A646-9EB1A0F0A64DQ28284588-EFF65A76-BFE2-44EB-AFEA-63582A11790AQ28395223-17204A9F-5CE9-4CD3-9199-933F5397A5EAQ28509163-B18606F6-682D-4344-8D7B-28B1C01B1B33Q28547727-DA0EFAB1-A046-4C6A-8322-1FA3AF088580Q28581352-AB88F8A5-80BD-47AD-86C0-8B115E698332Q28588501-E045A8D2-B5A6-424A-811F-7A0AED903D23Q28591774-DE3D3421-09E1-44F3-A63D-ADBECE3DB2ECQ28754736-56B645C8-90E0-41DF-93F4-CB1D4B1B6BB7
P2860
A lethal defect of mitochondrial and peroxisomal fission.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
A lethal defect of mitochondrial and peroxisomal fission.
@en
type
label
A lethal defect of mitochondrial and peroxisomal fission.
@en
prefLabel
A lethal defect of mitochondrial and peroxisomal fission.
@en
P2093
P356
P1476
A lethal defect of mitochondrial and peroxisomal fission.
@en
P2093
Carlo W T van Roermund
Hans R Waterham
James V Leonard
Janet Koster
Petra A W Mooyer
P304
P356
10.1056/NEJMOA064436
P407
P577
2007-04-01T00:00:00Z